Screw Compressor for a Utility Vehicle

Abstract

A compressor system for an utility vehicle includes at least one compressor, at least one electric motor which drives the compressor, at least one electric motor control unit and at least one air treatment device. The electric motor control unit is designed and configured in such a way that it controls the electric motor and at least partly the air treatment device.

Claims

1-9. (canceled)

10. A compressor system for a utility vehicle, comprising: at least one compressor; at least one electric motor which drives the compressor; at least one electric motor control unit; and at least one air processing device, wherein the electric motor control unit is configured so as to control the electric motor and, at least partially, the air processing device.

11. The compressor system as claimed in claim 10, wherein the compressor is a screw compressor.

12. The compressor system as claimed in claim 10, wherein the air processing device has a multi-circuit protection valve and a plurality of compressed air accumulators.

13. The compressor system as claimed in claim 10, wherein the electric motor control unit has signal inputs which are configured so as to serve to process sensor signals of the air processing device.

14. The compressor system as claimed in claim 10, wherein the electric motor control unit has signal outputs which are configured so as to serve to drive actuators of the air processing device.

15. The compressor system as claimed in claim 10, wherein the electric motor control unit has a pressure monitoring control module which is configured such that pressure in the air processing device is monitorable and/or regulatable by the pressure monitoring control module.

16. The compressor system as claimed in claim 15, wherein the pressure monitoring control module is further configured such that the pressure in at least one further compressed air consumer of the utility vehicle is monitorable and/or regulatable by the pressure monitoring control module.

17. The compressor system as claimed in claim 10, wherein the electric motor control unit has an air drying control module which is configured such that the air drying function in the air processing device is monitorable and/or regulatable by the air drying control module.

18. The compressor system as claimed in claim 10, wherein the electric motor control unit has a rotation speed control module which is configured such that a rotation speed of the electric motor is controllable and/or regulatable by the rotation speed control module.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 shows a schematic view of an air processing device for a utility vehicle; and

[0022] FIG. 2 shows a perspective arrangement of the exemplary embodiment according to FIG. 1.

DETAILED DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 shows a schematic drawing of a utility vehicle air processing system comprising a compressor 5 which is driven by an electric motor 3.

[0024] Driving of the compressor 5 by means of the electric motor 3 takes place via a common drive shaft 4 and an electric motor control unit 2. All of these components are arranged in a common housing 1.

[0025] The compressor 5 is a screw compressor 5.

[0026] Furthermore, the air processing unit 40 which has a multi-circuit protection valve and a plurality of compressed air accumulators 51-54 with compressed air 21-24 stored therein is present.

[0027] The compressor 5 receives ambient air through the intake line 30, and the outlet is connected to the air processing unit 40 via an air outlet line 31.

[0028] The following constituent parts are integrated in the electric motor control unit 2: the control unit 10 for the air processing device 40 (A.10) and the control unit 10 for the frequency unit converter 6 for the electric motor 3, which control units are connected to one another via an electrical control line 30.

[0029] The frequency converter 6 has an energy connection 11 and its output is connected to the electric motor 3 via a corresponding electrical line 12.

[0030] The electric motor control unit 2 is equipped with corresponding signal inputs 7 (analog signal inputs 7) for receiving pressure sensor signals and the connections to the solenoid valves 9 in order to be able to monitor all of the functions of the air processing unit 40 and also the activity of the various pneumatic loads 50 of the utility vehicle.

[0031] The analog signal inputs 7 of the electric motor control unit 2 are connected to the air processing device 40 by means of electrical connections 60.

[0032] The same applies for the valve drives 9 which are likewise accordingly connected via connection lines 61.

[0033] The integrated control unit 2 is able to control and to actuate the frequency converter 6 of the electric motor 3 and also all of the functions of the air processing device 40, for which purpose the signal inputs 7 and signal outputs 9 are used.

[0034] With the aid of these connections 7 and 9, it is possible to be able to accordingly control the pressure situation in the air processing device 40 and the air drying function.

[0035] Furthermore, it is possible to accordingly monitor the vehicle status, the electric motor status and also the air treatment status and to output a corresponding rotation speed to the electric motor 3 in order to be able to provide an optimum and best-possible operating characteristic for the compressor 5.

[0036] FIG. 2 shows, in a perspective view, the utility vehicle air processing system shown in FIG. 1 comprising the compressor 5 which is driven by the electric motor 3.

[0037] FIG. 2 also shows the air processing unit 40 and the associated (compressed air) air supply line 64.

[0038] In this case, the electric motor control unit 2 is arranged directly on the electric motor 3.

[0039] In this case, the electric motor control unit 2 has two data cable connections 2a and 2b.

[0040] A power connection 2c is also provided.

[0041] The electric motor control unit 2 also has a connection 2d for connection to, for example, the CAN bus of a utility vehicle.

[0042] A first data cable 62 is connected to the data cable connection 2a.

[0043] The electric motor control unit 2 is connected in a signal transmitting manner to the electric motor 3 by means of the data transmission cable 62.

[0044] In the exemplary embodiment shown, the data transmission cable 62 is connected to an oil level sensor of the screw compressor 3 and serves to transmit oil level sensor data to the electric motor control unit 2.

[0045] A second data cable 63 is connected to the data cable connection 2a.

[0046] The electric motor control unit 2 is also connected in a signal transmitting manner to the electric motor 3 by means of the data transmission cable 63.

[0047] In the exemplary embodiment shown, the data transmission cable 63 is connected to a temperature sensor of the screw compressor 3 and serves to transmit temperature sensor data to the electric motor control unit 2.

[0048] In principle, other sensors can also be connected to the electric motor control unit 2 by means of the data transmission cables, and corresponding operating data of the screw compressor 3 can be transmitted.

[0049] Furthermore, the electric motor control unit 2, which is an integral constituent part of the electric motor 3, is connected to the data bus 66 of the utility vehicle by means of the connection.

[0050] In the exemplary embodiment shown, the data bus 66 here is a CAN bus which is the CAN bus of the utility vehicle.

[0051] The communication between the electric motor control unit 2, which is a constituent part of the electric motor 3, and the air processing unit 40 therefore takes place by means of the CAN bus 66.

[0052] The air processing unit 40 has a connection 40a for connection to the CAN bus 66.

[0053] The use of the CAN bus 66 has the effect that the signal transmission is less susceptible to faults and also fewer interference signals can occur.

[0054] In particular, it is possible to operate with considerably shorter lines for signal transmission from the electric motor control unit 2 to the CAN bus 66 and from the CAN bus 66 to the air processing unit 40, as a result of which function integration and also use of the existing signal transmission infrastructure of the utility vehicle that is present in any case are possible.

[0055] As is clear from FIG. 1 and FIG. 2, the electric motor 3, the screw compressor 5 and also the air processing unit 40 are independent units.

[0056] However, both the electric motor 3 and the air processing unit 40 are actuated by the electric motor control unit 2 of the electric motor 3.

[0057] There is therefore function integration of the control and regulation for the screw compressor 5 and the air processing 40 in the control unit 2 of the electric motor 3, which control unit has to be provided with a powerful control and regulation unit in any case.

[0058] Therefore, expensive electronic components can be saved, specifically in particular in the region of the screw compressor 5, but also in the region of the air processing unit 40, here.

[0059] Particularly advantageous signal transmission for actuation of the air processing unit 40 by the electric motor control unit 2 is further rendered possible owing to the use of the signal transmission bus, here the CAN bus 66.

LIST OF REFERENCE SYMBOLS

[0060] 1 Housing [0061] 2 Electric motor control unit [0062] 2a Data cable connection [0063] 2b Data cable connection [0064] 2c Power connection [0065] 2d Connection [0066] 3 Electric motor [0067] 4 Drive shaft [0068] 5 Compressor [0069] 6 Frequency unit converter [0070] 7 Signal inputs [0071] 9 Solenoid valve [0072] 10 Control unit [0073] 11 Energy connection [0074] 12 Electrical line [0075] 21 Compressed air [0076] 22 Compressed air [0077] 23 Compressed air [0078] 24 Compressed air [0079] 30 Intake line/control line [0080] 31 Air outlet line [0081] 40 Air processing unit [0082] 40a Connection [0083] 50 Pneumatic load [0084] 51 Compressed air accumulator [0085] 52 Compressed air accumulator [0086] 53 Compressed air accumulator [0087] 54 Compressed air accumulator [0088] 60 Electrical connections [0089] 61 Connection lines [0090] 62 Data transmission cable [0091] 63 Data transmission cable [0092] 64 (Compressed air) air supply line [0093] 65 Data bus, CAN bus